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BME, BMETInstallation and operating instructions
GRUNDFOS INSTRUCTIONS
[email protected] Tel. +31-152-610-900www.lenntech.com Fax. [email protected] Tel. +31-152-610-900www.lenntech.com Fax. +31-152-616-289
Lenntech
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English (GB) Installation and operating instructions
Original installation and operating instructions.
CONTENTSPage
1. Symbols used in this document
1. Symbols used in this document 2
2. General information 32.1 Pumped liquids 32.2 Preparation 3
3. Installation 43.1 Hose for turbine 4
4. Pipe connection 54.1 Inlet and discharge pipes 5
5. Electrical connection 5
6. Motor protection 56.1 Thermistor 56.2 Setting of motor starter 56.3 Generator operation 56.4 Monitoring of oil lubrication system 6
7. Before starting the booster module 6
8. Startup 68.1 BME 68.2 BMET 78.3 Operation settings 7
9. Liquid filling, venting and checking of direction of rotation 7
10. Checking of operation 7
11. Pulleys and V-belts 811.1 Inspection of pulleys 8
12. Replacement of V-belts 8
13. V-belt tension 8
14. Using the tension tester 9
15. Recommended V-belt tension 1015.1 V-belt tension, 50 Hz 1015.2 V-belt tension, 60 Hz 11
16. Oil lubrication system 1216.1 Oil change 1216.2 Type of lubricating oil 12
17. Motor bearings 12
18. Shut-down procedure 13
19. Periods of inactivity 1319.1 Preservation of pulleys and belts 1319.2 Startup after a period of inactivity 1319.3 Removal of preservative before restarting 1319.4 Flushing of the modules 13
20. Frequency of starts and stops 13
21. Fault finding 14
22. Checking of motor and cable 15
23. Technical data 15
24. Disposal 15
Warning
Prior to installation, read these installation and operating instructions. Installation and operation must comply with local regulations and accepted codes of good practice.
Warning
If these safety instructions are not observed, it may result in personal injury.
Caution If these safety instructions are not observed, it may result in malfunction or damage to the equipment.
NoteNotes or instructions that make the job easier and ensure safe operation.
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2. General informationGrundfos booster modules BME and BMET are supplied from the factory in boxes in which they should remain until they are to be installed. The modules are ready for installation.
2.1 Pumped liquids
Thin, non-explosive liquids, not containing solid particles or fibres. The liquid must not chemically attack the booster module materials. In case of doubt, contact Grundfos.
We recommend that you filter the raw water to maximum 30 microns.
The booster modules must never operate with water/liquid containing substances which would remove the surface tension, e.g. soap. If this type of detergent is used for cleaning of the system, the water/liquid must be led around the modules via a bypass.
Fig. 1 BME booster module
Fig. 2 BMET booster module
2.2 Preparation
Before installation, the following checks should be made:
1. Check for transport damagesMake sure that the module has not been damaged during transportation.
2. Type of booster moduleCheck that the type designation corresponds to order. See module nameplate.
3. Power supplyThe motor voltage and frequency details given on the nameplate should be compared with the actual power supply available.
4. V-beltCheck that the V-belt has been tightened. See section 13. V-belt tension.
5. LubricationSee section 17. Motor bearings.
6. Oil levelCheck the oil level. See section 6.4 Monitoring of oil lubrication system.Note: During periods of inactivity, the oil container may be empty. Check the oil level after 5 minutes of operation.
Warning
The booster modules must not be used for the pumping of inflammable liquids such as diesel oil, petrol or similar liquids.
Caution
During transportation and storage, the booster modules must never be preserved with glycerine or similar liquids which are aggressive to the booster module materials.
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3. InstallationThe booster module can be mounted directly on the floor or on a base frame. The module is adjusted by means of the four adjustable feet.
The inlet and discharge ports of the booster modules are shown in figs 3 and 4. Pipes are connected by means of Victaulic clamp couplings.
The BMET booster module also has a PJE clamp coupling on the concentrate inlet and a connection (300) for a hose for the concentrate outlet.
3.1 Hose for turbine
On BMET systems, the hose (300) is fastened to the outlet of the turbine housing with a strap. The hose is led to a drain tank, drain channel or a similar drain.
The end of the hose should always be mounted above the highest possible water level in the drain. The hose should be supported. See fig. 4.
Fig. 3 BME booster module
Fig. 4 BMET booster module
If the module is to be fastened, the following procedure is recommended:
Fig. 5 Concrete foundation
Fig. 6 Steel floor
The nuts must be tightened during transportation. See fig. 7.
Fig. 7 Tightened nuts
Caution The concentrate outlet must be kept free under all operating conditions.
Caution If a discharge pipe is connected to the concentrate outlet, this pipe must have an air inlet.
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Adjustable feet ± 10 mm Base frame
Inlet
Adjustable feet ± 10 mmBase frame
Inlet
Concentrate outlet
Concentrate inlet
Min. ∅450
Discharge
Note
Fasten the module with four foundation bolts. The base frame has additional holes for this purpose. The bolts can be secured to a concrete foundation or welded onto a steel floor. See figures 5 and 6.
NotePrior to startup, the nuts should be slackened. See fig. 5 concrete foundation and fig. 6 steel floor. The nuts must be counter-locked.
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4. Pipe connection4.1 Inlet and discharge pipes
The booster modules are fitted with clamp liners for Victaulic clamp couplings on the inlet and discharge sides. Position the clamp liners as shown in fig. 8.
Fig. 8 Positioning of clamp liners
5. Electrical connection
The electrical connection must be carried out by an authorised electrician in accordance with local regulations and the diagrams for the motor protection, starter and monitoring devices used. See fig. 9. The electrical connections are made in the terminal box.
Fig. 9 Wiring diagram
The required voltage quality measured at the motor terminals is ± 5 % of the rated voltage during continuous operation.
There must be voltage symmetry, i.e. approximately same difference of voltage between the individual phases. See section 22. Checking of motor and cable, point 1.
The motor is wound for star-delta starting.
The following starting methods can be used:
• star-delta starting
• soft starter
• frequency converter.
The maximum permissible run-up changeover time for star-delta starting is 2 seconds for motors up to and including 90 kW and 4 seconds for motors of 110 to 160 kW.
When starting up via a soft starter or frequency converter, the run-up time from 0 to 30 Hz should not exceed 6 seconds.
The run-out time from 30 to 0 Hz should not exceed 6 seconds.
During frequency converter operation, it is not advisable to run the motor at a frequency higher than the rated frequency (50 or 60 Hz). See motor nameplate.
6. Motor protectionThe motor must be connected to an effective motor starter (MV) and an external amplifier relay (FR). See fig. 9. This protects the motor against damage from voltage drop, phase failure, quick and slow overloading and a locked rotor.
In power supply systems where undervoltage and variations in phase symmetry may occur, a phase failure relay should be connected. See section 22. Checking of motor and cable.
6.1 Thermistor
Before starting up the system, the thermistors must be connected to terminals T1 and T2 on the terminal block. See fig. 9. The thermistors protect the motor windings against thermal overload.
6.2 Setting of motor starter
For cold motors, the tripping time for the motor starter must be less than 10 seconds at 5 times the rated current of the motor.
To ensure the best protection of the motor, the setting of the motor starter should be carried out as follows:
1. Set the starter overload to the rated current (I1/1) of the motor.
2. Start the booster module and let it run for half an hour at normal performance.
3. Slowly grade down the scale indicator until the motor starter trips.
4. Increase the overload setting by 5 %, but not higher than the rated current (I1/1).
For motors wound for star-delta starting, the starter overload unit should be set as described above, but the maximum setting must not exceed the following:
Starter overload setting = Rated current (I1/1) x 0.58.
6.3 Generator operation
Motor-driven generators for standard motors are often available according to standard conditions, e.g.
• maximum height above sea level: 150 metres
• maximum air intake temperature: 30 °C
• maximum air humidity: 60 %.
Caution Avoid any stress in the pipe system.
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Warning
Before starting work on the booster module, make sure that the power supply has been switched off and that it cannot be accidentally switched on.
The booster module must be connected to an external mains switch.
The booster module must be earthed.
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Pipe system Clamp liners Booster module
3.5 mm
MV
98 96 A2 T2 T1
K1
S1
KH2
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6.4 Monitoring of oil lubrication system
The oil lubrication system is monitored by a level switch positioned as shown in fig. 10. The electrical connection to 0-250 V (with a maximum 10 A back-up fuse) is made in the terminal box.
Fig. 10 Oil lubrication system
7. Before starting the booster moduleCheck the following:
1. Oil level. See section 6.4 Monitoring of oil lubrication system.
2. Belt tension. See section 13. V-belt tension.
3. Greasing. See section 17. Motor bearings.
4. Power supply in accordance with nameplate.
5. Free movability. Rotate the motor and pump shafts manually by means of the V-belt.
6. Pipework according to the diagrams in figs 11 and 12.
7. Slacken the foundation bolt nuts.
8. BMET: Free discharge for the concentrate.Connection of concentrate hose. See fig. 4.
8. StartupWe recommend that you open the discharge valve 1/4 when starting the booster module.
8.1 BME
To start up a BME booster module, proceed as follows:
1. Start the feed pump and check that the inlet pressure of the booster module is higher than 1.0 bar (10 metres head) and lower than 30.0 bar (300 metres head).
2. Vent the booster module. See section 9. Liquid filling, venting and checking of direction of rotation.
3. Start the high-pressure pump.Check that the oil level in the oil container stabilises between minimum and maximum.
4. Check the direction of rotation as described in section 9. Liquid filling, venting and checking of direction of rotation.
5. Set the discharge pressure of the booster module to the desired value.
6. Check that the inlet pressure of the booster module is higher than 1.0 bar (10 metres head) and lower than 30.0 bar (300 metres head).
The booster module is now ready for operation.
Fig. 11 BME booster system
NoteDuring periods of inactivity, the oil container may be empty. Check the oil level after 5 minutes of operation. If necessary, refill the oil container.
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Max. oil levelMin. oil level
Terminal box
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Air escape valveHigh-pressure switch
RO filter
Permeate
High-pressure pump
Low-pressure switch
Feed pump
Raw-water supply
Pressure regulating valve
Concentrate (brine)
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8.2 BMET
Sound pressure level: Up to 105 dB(A)
To start up a BMET booster module, proceed as follows:
1. Start the feed pump and check that the inlet pressure of the booster module is higher than 2.0 bar (20 metres head) and lower than 5.0 bar (50 metres head).
2. Vent the booster module. See section 9. Liquid filling, venting and checking of direction of rotation. The module is fully vented when liquid runs out of the air escape valve.
3. Start the high-pressure pump. Check that the oil level in the oil container stabilises between minimum and maximum.
4. Check the direction of rotation as described in section 9. Liquid filling, venting and checking of direction of rotation.
5. Set the discharge pressure of the booster module to the desired value.
6. Check that the inlet pressure of the booster module is higher than 2.0 bar (20 metres head) and lower than 5.0 bar (50 metres head).
The booster module is now ready for operation.
Fig. 12 BMET booster system
8.3 Operation settings
The flow and discharge pressure of the booster module should always be kept within the ranges for which it was originally designed. See "Technical specification" supplied with the system.
If the system requires flows and pressures outside the design range, changes are possible. Please contact Grundfos.
9. Liquid filling, venting and checking of direction of rotation
Procedure:
1. Open the valve on the inlet side of the module. The module is normally primed by the pressure from the feed pump.
2. Open the air escape valve on the discharge side of the module.
3. Continue the filling procedure until water runs out of the air escape valve. See figures 11 and 12.
4. If the system is fitted with an isolating valve on the discharge side of the high-pressure pump, open this valve approx. 1/4.
5. Start the module (for 1 sec. only) and check the direction of rotation. The correct direction of rotation is indicated on the cover of the V-belt screen. If necessary, interchange two phases to the motor.The direction of rotation of the turbine-driven pump is always correct.
10. Checking of operationCheck the following at suitable intervals:
• Flow and pressure.
• Current consumption.
• Lubricating oil level.
• Whether the oil container contains water (the lubricating oil should be changed every 2,000 operating hours or every 6 months, whichever comes first).
• Whether the motor ball bearings are being greased (check that excessive grease can escape through the drain hole in bearing cover).
• Whether the bearings are worn.
• Whether the V-belts are tightened correctly.Check every 6 months. See section 13. V-belt tension.
• Whether the shaft seal is leaky.The drain hole underneath the pulley must be free from deposits. Flush with clean fresh water, if required.The shaft seal is lubricated by the pumped liquid. Small quantities of liquid are therefore drained via the drain hole.
• Whether the noise level has changed.
We recommend that you write the operating data into the log book supplied with the system. These data can be useful for maintenance purpose.
Warning
The sound pressure level is so high that hearing protection must be used.
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High-pressure switchAir escape valve RO filter
High-pressure pump
Turbine pump
Low-pressure switch
Feed pump
Raw-watersupply
Permeate
Turbine
Concentrate (brine)
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11. Pulleys and V-belts
11.1 Inspection of pulleys
Inspect the pulley grooves for wear. See fig. 13. Belt life will be reduced if the grooves are worn.
Fig. 13 Examples of new and worn pulley grooves
Use, for instance, pulley gauges to determine whether the grooves are worn. See fig. 14.
The motor pulley groove is 38 ° and the pump pulley groove is 34 °.
Fig. 14 Use of pulley gauges
A torch may be useful when inspecting the grooves. Do not be misled by shiny grooves. Grooves that are shiny are often polished because of heavy wear. Inspect the pulley grooves for corrosion or pitting. If corroded or pitted surfaces are found, the pulley should be replaced.
Checking and correcting pulley alignment
Misaligned pulleys will accelerate wear of belts and pulley grooves.
Check the alignment by placing a steel straightedge across the pulley faces so that it touches all four contact points. See fig. 15.
Correct the alignment, if required.
Fig. 15 Correct alignment
12. Replacement of V-beltsProcedure:
1. Remove oil and impurities from the pulley grooves.
2. Place the V-belts loosely in the pulley grooves without using force or tools of any kind.
3. Adjust the V-belt tension to the value stated in section 15. Recommended V-belt tension.
13. V-belt tensionCorrect belt tension is decisive for long and trouble-free operation of the transmission unit.
This section refers to section 15. Recommended V-belt tension.
1. Move the motor towards or away from the pump until the correct tension has been obtained, i.e. between Tmin.-Tmax..
2. Rotate the motor and pump shafts a few times by means of the V-belt before checking the Tmin.-Tmax. value.
3. Adjust the V-belt tension to the value stated.
4. Check the V-belt tension after 1 to 4 hours of operation at full load.
5. Adjust the V-belt tension to the value stated.
6. The belt tension should be checked regularly according to the recommended values.
The belt tension can be measured through a hole in the protective guard.
V-belts and pulleys must be checked every 6 months.
We recommend that you replace the V-belts once a year.
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Caution Worn pulleys must be replaced to ensure trouble-free operation.
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Worn V-belt and pulley groove
Wear
New V-belt and pulley groove
Pulley gauges
Caution All V-belts must be replaced by new belts.
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14. Using the tension testerThe tension tester supplied with the BME and BMET should be used as described below.
The use of the tension tester is illustrated in figs 16, 17 and 18.
The position numbers in this section refer to fig. 16.
1. Rotate the motor and pump shafts a few times before checking the belt tension.
2. Reset the pointer, pos. 1, and place the tension tester on the belt between the pulleys, pos. 4.
3. Use only one finger to operate the tension tester, pos. 2.
4. Gently press the tension tester until a "click" indicates that the tester has been activated.
5. Remove the tester from the belt and read the tension measured, pos. 3.
6. Adjust the V-belt tension to the value stated in section 15. Recommended V-belt tension.
Fig. 16 Tension tester
Fig. 17 Using the tension tester
Fig. 18 Reading the tension tester
Caution Rotate the motor and pump shafts after each tension adjustment.
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15. Recommended V-belt tension
15.1 V-belt tension, 50 Hz
The table below shows the recommended tension of V-belts for BME and BMET:
* V-belt tension within the first hour of operation.
** V-belt tension after more than one hour of operation.
V-belt tension, 50 Hz
Diameter of pulley[mm] Number
of V-belts
Belt length
V-belt tension[N]
Diameter of pulley[mm] Number
of V-belts
Belt length
V-belt tension [N]
Motor Pump [mm]New belts*Tmin.-Tmax.
Check**Tmin.-Tmax.
Motor Pump [mm]New belts*Tmin.-Tmax.
Check**Tmin.-Tmax.
160 kW, 50 Hz, 400 V, 2976 min-1 55 kW, 50 Hz, 400 V, 2960 min-1
300
150 9
1650 900-1000650-700
300
150 4
1500 800-900600-700280
1600
800-900
280
265
600-700
265
1400 700-800250
1550
250
500-600
236 236
224 224
132 kW, 50 Hz, 400 V, 2977 min-1 212
1320 600-700300
150 8
1650 850-900 650-700 200
2801600
800-900
600-700
190
265 45 kW, 50 Hz, 400 V, 2970 min-1
250
1550
300
150 3
1500800-900
600-700
236
700-800
280
1400224 265
700-800
212 1500 250
110 kW, 50 Hz, 400 V, 2979 min-1 236
1320300
150
6
1650 900-1000 700-800 224
500-600280
1600800-900
650-700
212
265 2001250
250
1550
190
236
8 700-800
37 kW, 50 Hz, 400 V, 2955 min-1
224500-600
300
150 3
1400 800-900600-700212 1500 280
90 kW, 50 Hz, 400 V, 2970 min-1 265
1320 700-800300
150 6
1550 800-900
600-700
250
500-600280 236
265
1500
700-800
224
1250 600-700250 212
236
500-600
200400-500
2241450
190
212 30 kW, 50 Hz, 400 V, 2955 min-1
2001400
300
150 2
1400800-900
600-700190 280
700-800
75 kW, 50 Hz, 400 V, 2974 min-1 265
1320300
150 5
1550 800-900
600-700
250
280 236
500-600
265
1500
700-800
224
1250250 212
236
500-600
200
2241450
190
212
2001400
190
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15.2 V-belt tension, 60 Hz
The table below shows the recommended tension of V-belts for BME and BMET:
* V-belt tension within the first hour of operation.
** V-belt tension after more than one hour of operation.
V-belt tension, 60 Hz
Diameter of pulley[mm] Number
of V-belts
Belt length
V-belt tension[N]
Diameter of pulley[mm] Number
of V-belts
Belt length
V-belt tension[N]
Motor Pump [mm]New belts*Tmin.-Tmax.
Check**Tmin.-Tmax.
Motor Pump [mm]New belts*Tmin.-Tmax.
Check**Tmin.-Tmax.
150 kW, 60 Hz, 440 V, 3572 min-1 52 kW, 60 Hz, 440 V, 3564 min-1
250
150 91550
850-900
650-700
250
1504
1400
800-900
600-700
236800-900
236
1320224 1500 224
125 kW, 60 Hz, 440 V, 3575 min-1 212
250
150 8
1550850-900 650-700 200
1250700-800
236
800-900
600-700
190
224
1500
180 5 600-700 500-600
212 43 kW, 60 Hz, 440 V, 3546 min-1
200
700-800
250
150 3
1320 800-900
600-700
1901450
236
180 224
1250 700-800103 kW, 60 Hz, 440 V, 3564 min-1 212
250
150
61500 900-1000 700-800 200
236
1450
800-900650-700
190 500-600
224
8
700-800
35 kW, 60 Hz, 440 V, 3546 min-1
212
500-600
250
150
2 1320900-1000 700-800
200
1400
236 800-900600-700
190600-700
224
3 1250
700-800180 212
500-60086 kW, 60 Hz, 440 V, 3568 min-1 200600-700
250
150
51500
800-900650-700 190
236
1450600-700
224
6 700-800
212
500-600200
1400190
180
63 kW, 60 Hz, 440 V, 3568 min-1
250
1504
1450
800-900
600-700
2361400
224
212
1320200
700-800190
180 5 600-700 500-600
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16. Oil lubrication systemThe BME and BMET booster modules have an oil lubrication system for the two ball bearings in the pulley head.
During operation, there must be a continuous flow of oil to the oil container. Check the flow by looking into the container, see fig. 19.
Fig. 19 Oil lubrication system
16.1 Oil change
The hydraulic oil should be changed every 2000 operating hours or every 6 months, whichever comes first. Total quantity of oil: Approx. 1.5 litres.
During operation, the oil must be changed as follows:
1. Switch off the level switch in the oil container or establish a time delay of approx. 10 minutes.
2. Open the drain valve. See fig. 19. Oil will now run out of the oil drain pipe.
3. Close the drain valve when the oil container is almost empty.
4. Fill in new oil up to the maximum level mark on the oil container.
5. Open the drain valve.
6. Close the drain valve when the oil container is almost empty.
7. Fill in oil up to the maximum level mark on the oil container.
8. Open the drain valve.
9. Close the drain valve when the oil container is almost empty.
10. Fill in oil up to the maximum level mark on the oil container. Approx. 1.5 litres of hydraulic oil has now been filled into the container.
11. Check the oil level after 1 to 2 hours of operation and refill, if required.
The oil has now been changed.
If the oil lubrication system has been dismantled during repair, the system must be filled as follows:
1. Check that the drain valve is closed. See fig. 19.
2. Fill new oil into the oil container, approx. 0.5 litres, and wait approx. 10 minutes until the oil level has fallen.
3. Fill in oil up to the maximum level mark on the oil container.
4. Start up the booster module.The oil level in the oil container will now fall.
5. During operation, fill in oil up to the maximum level mark on the oil container.
6. Check the oil level after 1 to 2 hours of operation and refill, if required.During operation, the oil level in the container must lie between the minimum and maximum marks.During inactivity, the oil level in the container may fall below the minimum mark.
The oil lubrication system is now filled with oil.
16.2 Type of lubricating oil
The oil system is factory-filled with hydraulic oil, type Mobil DTE 24.
Other types of hydraulic oil with a viscosity of 32 can be used.
17. Motor bearingsUnder optimum operating conditions, the operating life of the motor ball bearings is approx. 20,000 operating hours. After that period, the bearings must be replaced. The new ball bearings must be filled with grease.
BME and BMET booster modules are factory-fitted with a manual motor bearing greasing system. For greasing intervals, etc., see motor nameplate or the installation and operating instructions supplied with the motor.
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Oil cooler
Drain valve Oil drain pipe
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18. Shut-down procedureSee section 19. Periods of inactivity for precautions to be taken when shutting down the system. These precautions must be taken to protect the system and ensure long life of all the system components.
Procedure
See fig. 11 or 12.
1. Stop the BME pump (high-pressure pump).
2. Wait for 5 seconds to ensure water supply while the BME pump is being shut down.
3. Stop the feed pump.
19. Periods of inactivityIn the case of periods of inactivity, various precautions must be taken to protect the system.
The precautions to be taken if the system is to be inactive for a certain period appear in the table:
* Use the same solution that is used to preserve the membranes.
19.1 Preservation of pulleys and belts
When the belts have been removed, lubricate the pulleys with an anti-corrosive lubricating oil.
The belts must be kept at a temperature not exceeding 30 °C and at a relative air humidity not exceeding 70 %.
The belts must not be exposed to direct sunlight.
19.2 Startup after a period of inactivity
The precautions to be taken if the system has been inactive for a certain period appear in the table:
19.3 Removal of preservative before restarting
Before restarting the system, remove the preservative with a suitable solvent. The pulleys must be completely free from oil before the belt is refitted.
19.4 Flushing of the modules
The booster pumps must be stopped while the system is flushed.
The booster modules can be flushed through in or against the flow direction. See fig. 20 or 21.
Flush the system through with fresh water for approx. 10 minutes or until the salinity is below 500 ppm. The pressure during flushing must be minimum 2 bar. The flushing must be continued until the modules are completely filled with clean fresh water.
Fig. 20 BME booster module - flow direction when flushing
Fig. 21 BMET booster module - flow direction when flushing
20. Frequency of starts and stopsMinimum 1 per year is recommended.
Maximum 5 per hour.
Maximum 20 per day.
Action
30
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s
1 m
on
th
3 m
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ths
6 m
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Flushing. See section 19.4 Flushing of the modules
x x x x
Fill the modules with fresh water x x x x
Preserve the pump* x x x
Slacken and remove the V-belts.Preserve the pulleys against corrosion. See section 19.1 Preservation of pulleys and belts
x x x
Rotate pump and motor shafts manually once a month
x x
Caution The normal stop procedure must be followed step by step.
Action
1 m
on
th
3 m
on
ths
6 m
on
ths
Remove preservative from the pulleys. See section 19.3 Removal of preservative before restarting
x x x
Check the V-belts x x x
Mount the V-belts and adjust the tension according to the values in section 15. Recommended V-belt tension
x x x
CautionThe normal startup procedure must be followed step by step. For greasing of motor bearings, see section 17. Motor bearings.
Caution If the flushing takes more than 10 minutes, the flow must be reduced to maximum 10 % of the rated flow.
Caution The booster modules must be filled with clean fresh water during periods of inactivity.
CautionTo flush the pulley head of the BME pump, start the pump for 30 seconds to allow the fresh water to enter into the pulley head.
Caution The distributing pipe for nozzles must also be flushed through.
TM
01
13
86
04
03
TM
01
13
87
04
03
13
En
glis
h (G
B)
21. Fault finding
Warning
Before starting work on the booster module, make sure that the power supply has been switched off and that it cannot be accidentally switched on.
Fault Possible cause Remedy
1. The booster module starts/stops occasionally during operation.
a) No water supply.The low-pressure switch has cut out.
Check that the low-pressure switch functions normally and is adjusted correctly. Check that the minimum inlet pressure is correct. If not, check the feed pump. See section 8. Startup.
b) The lubricating oil level is too low. Check that the oil level switch functions normally. If it is OK, check the oil system for leakage. See section 16. Oil lubrication system.
2. The booster module stops during operation.
a) The fuses are blown. After a cut-out, the cause of a possible short-circuit must be found.If the fuses are blown, check whether the motor starter has been set correctly or is faulty.If the fuses are hot when they are replaced, check that the load of the individual phases does not exceed the motor current during operation. Identify the cause of the load.If the fuses are not hot immediately after the cut-out, the cause of a possible short-circuit must be identified.Possible fuses in the control circuit must be checked and defective fuses must be replaced.
b) The motor starter overload unit has tripped. Reset the starter overload. See also sections 5. Electrical connection, 6. Motor protection and 7. Before starting the booster module.
c) The magnetic coil of motor starter/contactor is defective (not cutting in).
Replace the coil. Check the coil voltage.
d) The control circuit has cut out or is defective. Check the control circuit and the contacts in the monitoring devices (low-pressure switch, flow switch, etc.).
e) The motor/supply cable is defective. Check motor and cable. See section 6.2 Setting of motor starter.
3. The booster module runs, but gives no water or develops any pressure.
a) No or insufficient water supply at the module inlet.
Check that the inlet pressure during operation is at least 1 bar for BME and 2 bar for BMET. See sections 8.1 BME and 8.2 BMET.Restart the booster module as described in section 8. Startup. Check the function of the feed pump.
b) The piping system, pump or nozzle is choked up.
Check the piping system, pump and nozzle.
c) The pre-filter is choked up. Clean the pre-filter.
4. The booster module runs at reduced capacity.
a) Wrong direction of rotation. See section 9. Liquid filling, venting and checking of direction of rotation.
b) The valves on the discharge side are partly closed or blocked.
Check the valves.
c) The discharge pipe is partly blocked by impurities.
Clean or replace the discharge pipe. Measure the discharge pressure and compare the value with the calculated data. See "Technical specification", supplied with the system.
d) The pump is partly blocked by impurities. Pull the pump out of the sleeve. Dismantle, clean and check the pump and module. Replace any defective parts.
e) The pump is defective. Pull the pump out of the sleeve. Dismantle, clean and check the pump and module. Replace any defective parts.
f) The pre-filter is choked up. Clean the pre-filter.
14
En
gli
sh
(G
B)
22. Checking of motor and cable23. Technical dataSee motor and module nameplates.
24. DisposalThis product or parts of it must be disposed of in an environmentally sound way:
1. Use the public or private waste collection service.
2. If this is not possible, contact the nearest Grundfos company or service workshop.
Subject to alterations.
1. Supply voltage
TM
00
13
71
35
97
Measure the voltage between the phases with a voltmeter.Connect the voltmeter to the terminals in the motor starter.
The voltage should, when the motor is loaded, be within ± 5 % of the rated voltage. The motor may burn if there are larger variations in voltage.If the voltage is constantly too high or too low, the motor must be replaced by one corresponding to the supply voltage.Large variations in the supply voltage indicate poor power supply, and the module should be stopped until the defect has been found.Resetting of the motor starter may be necessary.
2. Current consumptionT
M0
0 1
37
2 3
59
7
Measure the current of each phase while the module is operating at a constant discharge pressure (if possible at the capacity where the motor is most heavily loaded). For normal operating current, see the "Technical specification".
The difference between the current of the phase with the highest amp consumption and the one with the lowest amp consumption must not exceed 10 % of the lowest amp consumption.If so, or if the current exceeds the full-load current, check these possible faults:• A damaged pump is causing the motor to be
overloaded. Pull the pump out of the sleeve for overhaul.
• The motor windings are short-circuited or partly disjointed.
• Too high or too low supply voltage.• Poor connection in leads. Weak cables.
Points 3 and 4: Measurement not needed if supply voltage and current consumption are normal.
3. Winding resistance
TM
00
13
73
35
97
Remove the phase leads from the terminal box.Measure the winding resistance as shown on the drawing.
The highest value must not exceed the lowest value by more than 5 %.If the deviation is higher, and the supply cable is OK, the motor should be overhauled.
4. Insulation resistance
TM
00
13
74
35
97
Remove the phase leads from the terminal box.Measure the insulation resistance from each phase to earth (frame).(Make sure that the earth connection is made carefully.)
The insulation resistance for a new, cleaned or repaired motor must be approx. 10 MΩ measured to earth. For a given motor the critical insulation resistance (Rcrit) can be calculated as follows: Rcrit = UN [kV] x 0.5 [MΩ/kV].If the measured insulation resistance is lower than Rcrit, the motor must be overhauled.
15
Ap
pe
nd
ix
Appendix 1
LOG BOOK for BME/BMET booster modules
Product no: Installation date: Company/your ref.
Country:
Type: Start of operation: City:
VFD/Soft start:Brand
DateAmb. temp.
Liquid temp.
Feed flow/ pressure
Concent. flow/
pressure
Permeateflow
Current[A]
Voltage[V]
Comments
16
Ap
pe
nd
ix
System sketch
17
De
cla
rati
on
of
co
nfo
rmit
y
19
Declaration of conformity 1
GB: EC declaration of conformityWe, Grundfos, declare under our sole responsibility that the products BME and BMET, to which this declaration relates, are in conformity with these Council directives on the approximation of the laws of the EC member states:
DK: EF-overensstemmelseserklæringVi, Grundfos, erklærer under ansvar at produkterne BME og BMET som denne erklæring omhandler, er i overensstemmelse med disse af Rådets direktiver om indbyrdes tilnærmelse til EF-medlemsstaternes lovgivning:
DE: EG-KonformitätserklärungWir, Grundfos, erklären in alleiniger Verantwortung, dass die Produkte BME und BMET, auf die sich diese Erklärung bezieht, mit den folgenden Richtlinien des Rates zur Angleichung der Rechtsvorschriften der EU-Mitgliedsstaaten übereinstimmen:
GR: ∆ήλωση συμμόρφωσης ECΕμείς, η Grundfos, δηλώνουμε με αποκλειστικά δική μας ευθύνη ότι τα προϊόντα BME και BMET στα οποία αναφέρεται η παρούσα δήλωση, συμμορφώνονται με τις εξής Οδηγίες του Συμβουλίου περί προσέγγισης των νομοθεσιών των κρατών μελών της ΕΕ:
FR: Déclaration de conformité CENous, Grundfos, déclarons sous notre seule responsabilité, que les produits BME et BMET, auxquels se réfère cette déclaration, sont conformes aux Directives du Conseil concernant le rapprochement des législations des Etats membres CE relatives aux normes énoncées ci-dessous :
ES: Declaración CE de conformidadNosotros, Grundfos, declaramos bajo nuestra entera responsabilidad que los productos BME y BMET, a los cuales se refiere esta declaración, están conformes con las Directivas del Consejo en la aproximación de las leyes de las Estados Miembros del EM:
IT: Dichiarazione di conformità CEGrundfos dichiara sotto la sua esclusiva responsabilità che i prodotti BME e BMET, ai quali si riferisce questa dichiarazione, sono conformi alle seguenti direttive del Consiglio riguardanti il riavvicinamento delle legislazioni degli Stati membri CE:
TR: EC uygunluk bildirgesiGrundfos olarak bu beyannameye konu olan BME ve BMET ürünlerinin, AB Üyesi Ülkelerin kanunlarını birbirine yaklaştırma üzerine Konsey Direktifleriyle uyumlu olduğunun yalnızca bizim sorumluluğumuz altında olduğunu beyan ederiz:
AR: ن ة م رار المطابق ة) EC إق ة األوروبي (المجموعات أن المنتج ة ب ؤوليتنا الفردي ى مس دفوس، بمقتض ن، جرون ر نح BME نقأن ،BMETو س بش ات المجل ة لتوجيھ ون مطابق رار، تك ذا اإلق ا ھ ص بھ تي يخت الة ة األوروبي اء المجموع دول أعض وانين ال ن ق ب بي :(EC) التقري
— Machinery Directive (2006/42/EC).Standard used: EN 809:1998 + A1:2009.
This EC declaration of conformity is only valid when published as part of the Grundfos installation and operating instructions (publication number 96421463 0915).
Bjerringbro, 23 September 2015
Svend Aage KaaeDirector
Grundfos Holding A/SPoul Due Jensens Vej 7
8850 Bjerringbro, Denmark
Person authorised to compile the technical file and empowered to sign the EC declaration of conformity.
96421463 0915
ECM: 1164740 The
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